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$46.5K

$146.9K

$174K

How much do deep sea engineering jobs pay per year?

As of Jun 8, 2026, the average yearly pay for deep sea engineering in the United States is $146,868.00, according to ZipRecruiter salary data. Most workers in this role earn between $116,500.00 and $173,000.00 per year, depending on experience, location, and employer.

What is the difference between Deep Sea Engineering vs Marine Engineering?

AspectDeep Sea EngineeringMarine Engineering
CredentialsEngineering degree, specialized training in subsea systemsEngineering degree, maritime certifications
Work EnvironmentUnderwater, subsea facilities, deep-sea vesselsShips, ports, coastal facilities
Industry UsageOffshore oil, subsea construction, deep-sea explorationShip design, propulsion, maintenance of ships and ports

Deep Sea Engineering focuses on designing and maintaining equipment and structures used in the deep ocean environment, often involving subsea technology and underwater operations. Marine Engineering covers the design, construction, and maintenance of ships, boats, and maritime systems used in coastal and open sea settings. While both roles require engineering credentials, Deep Sea Engineering emphasizes underwater and subsea systems, whereas Marine Engineering is broader, encompassing ship and port infrastructure.

What is deep sea engineering?

Deep sea engineering is a specialized field of engineering focused on designing, constructing, and maintaining structures, vehicles, and systems that operate in the deep ocean environment. This includes technologies for underwater exploration, oil and gas extraction, telecommunications, and scientific research in extreme underwater conditions. Deep sea engineers work with challenges such as high pressure, low temperatures, and limited accessibility, requiring advanced knowledge in materials science, robotics, and marine technology. Their work is vital for expanding our understanding and utilization of ocean resources.

What are the key skills and qualifications needed to thrive as a Deep Sea Engineer, and why are they important?

To thrive as a Deep Sea Engineer, you need a solid background in marine engineering, oceanography, and physics, typically with a relevant engineering degree. Familiarity with subsea robotics, remotely operated vehicles (ROVs), sonar mapping systems, and safety certifications such as IMCA or HSE is critical. Strong problem-solving, teamwork, and adaptability are vital soft skills to excel in challenging underwater environments. These skills ensure safe, reliable operations and innovative solutions in complex and often hazardous deep-sea projects.

What are some common challenges faced by deep sea engineers when working on underwater projects?

Deep sea engineers often encounter unique challenges such as high-pressure environments, limited visibility, and difficult weather conditions. Projects typically require the use of specialized equipment like remotely operated vehicles (ROVs) and subsea robotics, which demand strong technical skills for maintenance and troubleshooting. Collaboration with multidisciplinary teams, including marine biologists, geologists, and safety experts, is essential to ensure project success and compliance with environmental regulations. Flexibility and problem-solving are key, as unexpected technical and environmental issues frequently arise during underwater operations.
More about Deep Sea Engineering jobs
What states have the most Deep Sea Engineering jobs? States with the most job openings for Deep Sea Engineering jobs include:
What job categories do people searching Deep Sea Engineering jobs look for? The top searched job categories for Deep Sea Engineering jobs are:
Deep Sea Engineering jobs near you
PRINCIPAL ENGINEERING TECHNOLOGIST - STAFF ENGINEERING TECHNOLOGIST - Pressure Vessel, Structural...

PRINCIPAL ENGINEERING TECHNOLOGIST - STAFF ENGINEERING TECHNOLOGIST - Pressure Vessel, Structural...

Southwest Research Institute - Fulltime

San Antonio, TX

Full-time

Posted 4 days ago

Southwest Research Institute rating

8.8

Company rating: 8.8 out of 10

Based on 21 frontline employees who took The Breakroom Quiz

6th of 56 rated research

Job description

Who We Are: The Mechanical Fabrication Centers Section provides engineered fabrication services for commercial and government customers. We fabricate precision machined components and welded joint assemblies to the most stringent of requirements. We service all technical areas of Southwest Research Institute and are involved in a large cross section of the total of SwRI's and commissioned pressure vessels of various types for land-based, subsea, manned, and unmanned purposes.

The Mechanical Fabrication Center executes projects that cover every aspect of SwRI’s slogan “from deep sea to deep space." Objectives of this Role: Apply advanced principles, theories and concepts to welding and fabrication execution, leading project fabrication efforts by translating design intent into qualified, repeatable welding processes for large pressure vessels and structural assemblies. Ensure conformance of welded assemblies to approved procedures, dimensional requirements, and pressure-boundary quality standards. Lead fabrication efforts involving complex or critical welds with internal teams and external customers including weld qualification and risk mitigation.

Develop, refine, and standardize welder training and qualification programs for high-strength steels, stainless alloys, nickel alloys, and other specialty materials used in pressure and structural applications. Develop workforce planning, mentoring, and skill development strategies to ensure execution readiness for current and future programs. Daily and Monthly Responsibilities: Serve as subject matter expert for welding execution; lead collaboration between design and fabrication teams to ensure manufacturability, compliance, and quality of welded assemblies.

Using Certified Welding Inspector expertise, lead weld team quality improvement activities including development of corrective action and confirmation of procedural compliance. Independently assess and communicate technical risk, readiness, and execution status related to complex or critical welding and fabrication activities. Lead fabrication proposal efforts, evaluating cost, schedule, and feasibility assessments, leveraging execution experience.

Develop, qualify, revise, and maintain welding procedures, records, and objective quality evidence, ensuring compliance with internal quality programs and external standards. Requirements: Requires a Bachelors degree in Welding Technology, Welding Engineering Technology, Mechanical Engineering Technology or related Technology degree. In lieu of a Bachelors degree, 25+ years of related experience a high school education or equivalent and continued education/certifications are required.

Must be a Certified Welding Inspector. 15+ years: Demonstrated expertise in the development, qualification, interpretation, and application of welding procedures in accordance with AWS, ASME, and customer-specific codes and standards. Extensive hands-on experience across multiple welding processes and materials, with emphasis 15+ years: Recognized ability to exercise independent technical judgment in weld process selection, acceptance criteria interpretation, and resolution of non-conformances.

10+ years: Proven capability to train, mentor, and technically evaluate welders, serving as a subject matter expert rather than line supervision. 15+ years: Advanced proficiency in inspection planning, CWI-level evaluation, and objective quality evidence generation, ensuring traceability and audit readiness. A valid/clear driver's license is required.

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